Apparatus for optically projecting and gauging profiles



Feb. 20, 1951 c. F. DIETRICH ETA 2,542,755

APPARATUS FOR OPTICALLY PRO TING AND GAUGING PROFILES Filed Feb. 15, 1949 7 Sheets-Sheet l Feb. 20, 1951 c. F. DlETRlCH ETAL 2,542,755

APPARATUS F OR OPTICALLY PROJECTING AND GAUGING PROFILES Filed Feb. 15, 1949 7. Sheets-Sheet 3 INVQNTORS 3, Mafia-.4, M

Feb. 20, 1951 c. F. DI RICH EIAL 2,542,755

I APPARATUS FOR TICALLY PROJECTING AND GAUGING PROFILES Filed Feb. 15, 1949 7 Sheets-Sheet 4 624 0 z; #1? MW Feb. 20, 1951 c. F. DIETRICH ETAL I 2,542,755

' APPARATUS FOR OPTICALLY PROJECTING AND GAUGING PROFILES Filed Feb. 1'5, 1949 7 Sheets-Sheet e 1% k A A j I! I] g% I I /e/vraa W hm v 74am 31.42%

ZQMAWIM, M *w% F. DIETRICH EI'AL 2,542,755 us FOR OPTICALLY PROJECTING AND GAUGING PROFILES Feb. 20, 1951 c APPARAT '7 Sheets-Sheet '7 Filed Feb. 15, 1949 Patented Feb. 20, 1951 APPARATUS FOR OPTICALLY PROJ ECTIN G AND GAUGING PROFILES Cornelius Frank Dietrich, Southall, and Harry John Smith, Slough, England, assignors to Optical Measuring Tools Limited, Slough, England,

a British company Application February 15, 1949, Serial No. 76,582 In Great Britain February 18, 1948 surfaces of blades used in gas-turbine engines.

This invention relates to apparatus for optically gauging a contour of a workpiece of the type comprising a feeler to engage the workpiece, a movable mounting for this feeler capable of causing it to traverse the surface of the'workpiece along the contour to be gauged, a mounting for a spot graticule, or other index, coupled to the feeler so as to copy its movements,-anoptical projection system for projecting an image of the movements of the index and a mounting for a screen to receive said image, the screengbeing intended to bear also a representation of amaster profile against which the position .of the index can be gauged. 1

In known apparatus of this type, the screen which bears the representation of the master profile is made much larger than the profile which is to be gauged, the master profile being drawn upon it to a suitably enlarged scale and the image of the movements of the indexis correspondingly magnified. With this apparatus, working on the larger gas-turbine blades up to 3 in width and using an optical magnification of 20, there is required a screen size of 60". This is a somewhat cumbersome size, and the operator must move about in order to view the image.

The main object of the present invention is to provide an improved apparatus which enables the use of large magnificationsmf say 30 or-more, in conjunction with a small screen, even when the size of the workpiece is large. v j

According to the present invention, apparatus for optically gauging the contour of 'a workpiece, of the type described, comprisesoptical means for projecting an enlarged image-from the combined master profile and image of the index, a viewing screen large enough only to receive a part of said image, and meansconnecting said optical means to the movable mounting for the feeler and thereby causing it to move the image of the master profile sufliciently to keep the image of the index on the viewing screen during traverse of the contour. With such an apparatus the image of the master profile need no longer be drawn to a much enlarged scale.

21 Claims. (Cl. 88--24) It is preferably represented upon a master graticule which acts as the screen on which the image of the index is focussed and-the viewing screen which the operator observes receives a projected image of the master graticule Preferably the means connectingthe said optical means to the movable mounting for the feeler is such as to cause the image of the index to remain stationary during traverse of the contour and the means for achieving this result are hereinafter more fully described.

The following is a description by way of example of one construction of apparatus in accordance with the present invention, reference being made to the accompanying'drawings in which:

Figure 1 is a perspective diagrammatic view of the principal parts of the apparatus according to the present invention showing the optical system; V

Figure 2 is a front elevation of the apparatus; Figure 3 is a vertical section upon the line 3-3 of Figure 2 looking in the direction of the arrows;

Figure 4 is a plan;

Figure 5 is a plan to an enlarged scale of a portion of the floating table, which carries the feelers for gauging the workpiece, and of its associated parts; 7

Figure 6 is a vertical section through the table;

Figure '7 is a plan of part of the optical system; and V Figure 8 is a perspective view of the operating parts for the yielding actuation of the feelers.

Referring first to Figure 1, the workpiece to be gauged is shown at II and in the example shownisconstituted by a turbine blade. This is held in an upright position in a suitable holder, as hereinafter described. Along one side of the blade ll there is mounted a carriage IZ which is floating, that is to say it can be moved longitudinally by the operator in the direction of the arrow l3 or returned and it is also capable of being yieldingly urged toward the workpiece II in the direction of the arrow I4, or, if desired, urged in the opposite direction as indicated by the arrow I5. Movement of the carriage in the direction of the arrow I3 and return is eflected manuall by a rack and pinion gear. hereinafter described. Movementv in the direction of the arrows l4 or I5 is spring urged. I The carriage supports a pair of opposed feelers or styli I6, I! for engaging the workpiece H, the stylus I8 being mounted directly upon the carriage and the stylus I! being carried from the carriage by an arm I8 which presents the stylus l'l toward the back of the workpiece. II" the carriage is spring urged in the direction of the arrow M the stylus 16 engages the workpiece and under these conditions, if the carriage is caused to travel in the direction'of the arrow l3 orthe reverse, the stylus lfi'will follow the contour of the blade II and the carriage will copy the movement. If the carriage is spring urged in the direction of the arrow l5, the stylus ll will similarly follow the contour of the back of the blade.

A bracket IS on the carriage l2 supports a graticule 20 having two spaced circular spots 2|, 22. Preferably each spot is surrounded with a concentric ring. These two graticule spots are spaced apart, centre to centre, by a distance equal to the distance between the centres of the tips of the styli IS, IT. It will be observed that the styli have spherical tips and the spots are made of the same diameter as the tips. A lantern 23 is provided, containing a lamp 24 and condenser 25 which is mounted ona bracket 26 secured to the bracket-l9 and therefore moving with thetable. The lantern 23 directs light downwardly through the graticule 28. A large collecting lens 21. is provided between the lantern and the graticule 20 to collect as much light as possible and. to concentrate it upon the graticule. Below the graticule .20 is afroof prism 28 which turns the path of the light through a right-angle and also reverses itleft for right before it passes into a fixed projection lens system 29 which directs the light through a further prism 3|] and field lens 45 onto a master graticule 3|. The graticule 3| is stationary and when the stylus I6 is in contact with the blade II the image of the spot 2| of'the graticule 20'will be focussed onto the graticule 3| and will trace out an image of the profile upon the master graticule. The master graticule 3| carries a representation'of a master profile 32 and the master graticule must be so mounted that it can be adjusted to bring the master profile 32 into correspondence with the position of the blade so that if the blade were perfect in it shape the spot 2| would be focussed upon the edge of the master profile 32 throughout the whole of its movement.

After the stylus l6 has been caused to traverse the blade H in this way, the spring controlling the table 2 is thrown over to cause the stylus I! to bear 'upon the blade and then this also is caused to traverse the contour of the blade and thus the whole periphery is traced out against the master profile on the graticule 3|. The image traced out on the graticule 3| is not substantially larger than the blade H and is too small to be directly'viewed by the operator for gauging purposes. However the table I2 sup- 'ports a'bracket 33 on which is hingedly mounted an'arm 33 carrying a projection lens 35 above the graticule 3|. The lens 35 picks up apart of the image on-the graticule 3|, including the imageof the spot 2|, and project it by way of mirrors 36, 31cm to a viewing screen 38 where the spot, appears in much enlarged form" at 39 and a portion 40 of the master profile 32 also appears. I The ring surrounding the spot is also focussed on to the screen 38 as indicated at 4| and this ring is placed at such a distance from the spot 39 that as long as the master profile 4|! remains within the ring 4| this shows that the blade II does not depart from a true shape by'more than a ,permittedtolerance. Themagnificationon the screen- 38.may conveniently be 4 as much as 30, or if desired even more, times the size of the original profile.

When the stylus I! is in engagement with the workpiece II, the spot 22 is focussed upon the screen .38 and in order to bring the projection lens 35 above the image of the spot 22 on the graticule 3| it is necessary to swing the arm 34 relative to the bracket 33 into a position which corresponds with that indicated in chain lines in Figure l at 42.

It will be seen that the projection lens 35, being mounted on the bracket 33, moves with the table I2 and the spot on the graticule 20 (spot 2| or 22 whichever is in use) also moves with the table l2 so that the projection lens 35 will automatically remain above the image of the spot throughout the movements of the table and the spot is therefore always upon the screen 38. If the lens 29 produces on image which is equal in size to the image of the spot, there will, how ever, be a movement of the image of the spot over the screen 38 equal to the movement of the table and it is preferable that the image of the spot should not move about even to this extent but should remain at rest. Of course the image 4!) of the master contour 32 will in any case move very-considerably over the screen 38 as the projection lens 35 traverses with the table the path of the image of the spot 2| (or 22) which corresponds with the shape of the workpiece I.

To attain a stationary image of the spot at 39, the following considerations apply: Let the magnification produced by the lens between the mirrors be M1, then a movement Y of the spot graticule 20 is reproduced as a movement MlY in the plane of the stationary graticule 3|. The contour drawn on the stationary graticule is then- M1 times larger than the contour of the workpiece being tested. As the projection lens moves with the spot graticule, the movement of the spot relatively to the axis of the projection lens for a movement Y of the stylus is (M 1-l) Y. If M2 is the magnification in the projection lens, the movement of the spot relative to the axis of the projection lens in the plane of the screen 38 is Mz(M1-1) Y. Thus the movement of the spot on the projection screen is equal to M2(M11)YY since Y i the movement of the axis of the projection lens, each M being positive: i. e. Movement X of spot=Y(M2M1-Mz1) then X=O and the spot appears stationary. If M1 is smaller than this value, the spot will move, and if Mi-is greater it will move in the opposite direction. This means that the spot may be rendered stationary or it may be made to move so that it trace out a reproduction of the movement of the stylus to any desired magnification.

The master graticule 3| may bear identification marks such as short lines crossing the master curve, placed at intervals around the contour, preferably with identification numbers, so as to facilitate the identification of the part of the blade being viewed.

The apparatus shown is Figures 2 to 8 embodies the ports shown in Figure 1 in a practical form and where the parts in Figures 2 to 8 correspond with those shown in Figure 1 they are numbered with the same reference numerals. The general "disposition of the parts can best be seen by a comparison of Figures 2, 3 and 4 in which it can be seen that the apparatus comprises a hollow metal base 50 supported on levelling screws 5| and carrying guides for a table 12. On the table is secured an upstanding bracket 26 which carries the lantern 23 and at the rear edge of the table is the bracket 33 on which is pivoted the arm 34 carrying the projection lens 35 and also the bracket I9 carrying the graticule 22; It will be observed that the graticule 22 overlies a window 55 in the top of the base 5|] and comparison with Figure 7, which shows the prism-assembly located in the base, will show that the window 55 overlies a box structure 56 which contains an inclined mirror for directing the light on to the roof-prism 28. The lens assembly 29 is securedto a base-plate 51 by screws 58 working in slots 59 so that the lens assembly can be moved longitudinally for focussing purposes. It can also be focussed more finely by rotation of a screwed portion of the lens mounting 60. Beyond the lens mounting is the second prism 30 which directs the light on to an inclined mirror 62 (Figure 3) below the field lens 45. The mounting of the field lens 45 and the master graticule 3| is hereinafter more fully described. Above the graticule in Figure 3 can be seen the projection lens 35 above which is a window 63 in the underside of a box 64 which contains the mirror 35. The box 64 overlies the projection lens 35 and projects laterally from an upstanding hood I64. The hood I64 supports an inclined mirror 65 which directs the light on to the inclined mirror 3'! and thence the light passes to the screen 38 fixedin the front of the hood. In: front of the screen 38 there-is an extension 66 of the hood, which serves to shield the screen 38 from strong light and to make the image of the spot and the graticule marking easier to observe.

In one corner of the base 50 there is an upstanding column and on the column there slides a blade-supporting bracket H. The bladesupporting bracket has a head 12 in which works the spindle of a chuck 13 which carries the blade H, the contour of which is to be gauged. The

spindle of the chuck 13 extends upwardly through r the head 12 and carries above the head an index arm '14 which overlies a stationary disc above the head 12. The disc 75 is marked with a scale of degrees around its circumference and the index arm 14 has an index mark on its end to co-operate with the scale of degrees. This facilitates setting the blade H at a desired angle. The disc 15, moreover, has arcuate slots 16, H in which work fixing screws 18, 19 for stop-blocks 80, 8|. The stop-blocks contain tangential stop-screws 82, 83 and the index arm M can be moved to the left or right until it engages one or other of the stopscrews. Thus a blade which is mounted in the chuck '13 can be set so that at the middle of its height the blade is nearly parallel to the table l2 when the index arm 14 is opposite the zero mark on the degree scale 15 and then if the height of the blade is altered so as to bring the tip portion (the bottom end) opposite to the feelers IE, I! on the table and the index arm 14 is swung against one of the stop-screws, the blade will be parallel at the tip portion with the table, while if the level of the blade is altered to bring the root portion between the feelers l6, H the index arm is swung over against the other stopscrew and the root portion will thereby be brought into parallelism with the table. .Of course the term parallelism is employed in a rough and ready sense; the section of the blade being curved it cannot lie exactly parallel with the table but the main extension of its length can be brought to lie so that the edges are about equidistant from the table. This reduces the movement of the table when the profile isbeing gauged and makes for V greater accuracy.

It is important that the arm II should be adjustable vertically upon the column 10 to permit various points along the blade H to be brought between. the feelers. To this end the arm H, where it embraces the column H3, is provided with a hollow lug 85 which contains a pinion to mesh with a rack extending down the back of the column 10. The rack cannot be seen in the drawing, Figure 2 or Figure 3, because it lies toward the rear of the column as viewed in these figures. The pinion in the lug 85 is operated by a hand wheel 86.

To keep the arm H in the same vertical plane throughout its up and down movement on the column 70, a guide rod 81 is provided which is carried on bracket. arms 88 at the top and 89 at the bottom of the column. The guide rod 81 is carefully adjusted to be exactly parallel with the column 10 and it passes through the bracket arm H, which engages it by means of contact screws '90, one at the front and one at the rear of the bracket arm, one being visible in Figure 2 and the other in Figure 3 of the drawings.

If a series of blades are being tested which are all intended to be exactly alike, it will be realised that it is important that they should all be gauged ."at a series of positions along their length which correspond exactly for each workpiece tested. In order to ensure this, the column H3 has a lateral groove into which can be inserted from above a notched gauge-bar 9|. The gauge-bar 9! has a number of notches 92 in its length and the hub of the bracket ll, where it embraces the column 70, is provided with a spring pawl 93 to engage the notches. The hand wheel 86 is operated to lower the bracket ll until the spring pawl 93 drops into -'one. of the notches, whereupon the operator knows that the blade I I is at one of the heights at which a test is to be taken. When the test has been taken the operator releases the pawl 93 by pulling on a trigger 94 (Figure 4) and the bracket H when the blade i which it carries can then be lowered to the next notch, another reading taken and the operation repeated until readings have been taken at the levels corresponding to all the notches.

The table i2 must be traversed by hand in the direction corresponding to the arrow i3 of Figure l and in the return direction. To this end there is provided a hand wheel H16 which operates on a spindle 102 in'an inclined bearing Illl, as best seen in Figure 5. The spindle m2 carries at its inner end, which lies beneath the table 12, a skew gear I03 which meshes with another skew gear 134 on a vertical spindle passing through a bearing I in the base 50 (see Figures of the drawing). Secured on the base 50 is a guideway m6 for a table-carrying slide ill! and the table-carrying slide I51 carries a rack H18 with which meshes a pinion I09 on the upper end of the spindle of the skew gear H14. Thus rotation of the hand .wheel will move the slide H1! in one direction or the other, as may be desired by the operator. Upon the table-carrying slide [0! is a transverse guide member H0 and the table I2 is mounted oIrthei-guide. membera-I lil' tmmovez atzriehtangies to the 1 direction. ofi theeslide-I 01.; Thei detailss of this cross sliding-mechanism are: not: .showrrrin the drawing as. do not go: beyond'r'ordinary engineering: practice, but ittshouidzbeie explained that in: order to make: thee motioirreasy the car:- riage I2 slideson: balls 3 located :imthee guideways between the guide- MOIand' thevgui'deways int-the underside of the: carriage:;I2-..

The carriage has an invertedrchannelshaped groove 'IIZ' i'n a pressure member: IH; which is secured to its" rear: edge;- In: the: groove. I I 2 1there worksa roller H3 :(Figuretfi) fixed cnzthe endofa carriage-operating lever IMa; The carriage-operating lever is springaurged? tOJIIQVE theicarriage I2 either ina direction: in which it? pressesv the feeler IBwagainstitheblade Hi (arrow My-Figureil) or itcan be spring urge'dz'invthe opposite: directi'on to carry. the-feeler: Ik'l: againstthe blade II (arrow. I5,.Figure*1)-.' This;springicntiolz(if-the lever I I'4 willinow be: describedl. Upoman axis in line with a pivot II5 of the lever H4 there? is disposed? in the. top ofQ-th'e box-shapedzbases'fl a pivot "of a alever." H 6: which: carriesv at: its: end an upstanding: pin H11. The-:pivdtof the lav-e1 I16 passes through: thetop ofrthmboicand is con.- nectedbelow the top that is;.to: say' inside the box formed by" the basewtc" arse'cond lever: I'I8 which carries a pin- III! to" which is' attached a spring I"anchoredtat I211 to theeinteri'or-of the top of thebox Alli'thesesparts cair be seen. in Figure 8 of the drawing. When: the parts: are in the position showminsFigure the'pin I'II bears om the lever I Id at the left hand side of the pivot I I 5, as shown in the drawing, and the" effects of the spring I20 is to cause the lever M4 to move rearwardlyand' by reason of; the engagement of the roller I'I'3 withthegroove' I12". in the roller guide M I" fixed to the back of; the table I2, this urges the table rearwardlyand? brings the feeler I1; into engagementtwith the blade. I'I. Should the lever I'Ifi be thrown over, however, so that-the pin I-II'J engages the back off the lever: I14 atthe positionindicated" int chain: line at I22 irr-Figure 83 the roller II3 urgesith'e: carriage I2 in the 0p posite direction and the feel'er I6 is brought into engagement. This willbe done if'the lever H8 is thrown over, carrying the lever IIS-withit; and the spring IZO'passes theaxis-of theilever II8and therefbretends to pull it round in the opposite direction.

It would be possible for the operator to throw over the pin MT in the manner described but-it is much more convenient if the operation can be effected automatically. To this end there is a forked lever I23 pivoted at I24" tothe underside of the topof the box 5B. The lever is shown in dotted lines in Figure 5 and in full linesin Figure 8, The fork of the lever lies in such a position that it can be broughtinto engagement with the lower part of the pin I I9on the lever I IBand will push it over to one side or the other of its centre accordingtothe position of'tlie lever. The lever is connectedby a link I2 5" with a downwardly depending'l'ever arm I2L6"ona spindl'ei IZT-passing through the front of the base; the parts being shown in Fi'gureS and the position ofthem easily identified from Figures 5 and 6 of" the drawing. In front of the base the spindle I21 carries an upstanding lever arm I28' which is also seen in Figure 2' of the drawing. The arm I28j lies between' two adjustable dogs I29, I30 onaslotted member I31 secured tothe frontiof the member mm which carries the: guides for theicarriage: l2. Therefore: as the carriage is moved-"along: by the tion; the feelers I H! willnbe brought intov engage ment, with-.the opposite: side. ofvthe-blade I -I which isbeing gauged and: when the-return; movement of the: carriage-is completed the; dog: I29: will: onease: the lever I28-and tripthe-partsagaininto the position where-thefeeler I 6- engagesvthezworke piece; inreadiness: for. the: next operation: of: the apparatus.

It. will-bevappreciated that at their-same time that the-pressure of the feelers.againsttheeworke piece isreversed; the. position; of the, arm 34 which carries the projectionllens 35; ought to' be thrown over fromrthe: full linev-positionlof' Fig: ureel to, the-chain line-position. In. order to efiect this automatically a solenoid I35? is-..pro'- vided'on the'bracket 33: which has a: core; I36 connectedzto the. arm-34 atxa positionw-beyondtits pivot I31. The link I25 is providedwithna: cam I38' (-Figure- 8) to: operateswamicro-switch I'39- in the-circuit of the-solenoid. When the parts. are moving in one direction the solenoid isc'energised: and holds the projection lens 35;- in one position, whilecwhenthe: parts are: moving in; the other direction the cam. l38i releases; the;- microswitch I39 the solenoid is: de-energised and the projection lens-.35" is pushed over to: the other position byaspring (notshown) located within the solenoid I35;

It-\vi1l-be'unde1st0od that it would be-very -irrconvenient to have to change thegraticule 3I every time that the; height of" the blade II is altered to gauge a different contour. The: graticule' 31I is slid into'place' above the lens" mounting' 45 between later-ial' guide; cheeks I40 (Figure 5) and itis convenient to; engraveon" the same graticule -threewdifierent cross-sections: of the blade I-I- correspondingto threedifierent test heights. In order toiavoid the linesinterfering with; one": another, thethree sectionsv are engraved at successive positionslwhich are: shifted around the axis.- of the graticule by 120?" and the mounting MI of thelens'and." graticuleflsmadb rotatable so that any one of the outlines can be positioned' at. the correct angle relative to the index spot of the graticule2ll as'maybe' desired; In'order to be able to rotate the mounting I4'I byan exact-amount' of IZU 'readily; the periphery of the mountingv is provided with gear teeth I42- which mesh with a pinion in a casing I43, the pinion' being operated byaknob I44. The rotatable mounting is: positioned by a. pawl I45 which drops into anyoneof three" notches I48 cut inthe-peripheryof themounting. The pawl M5 is urged toward the notch by a' spring, not shown; and" when the mounting is to berotated the pawl is Withdrawn by'pressing on a thumb lever I41 We claim:

1'. Apparatus for optically-gauginga contour of a workpiece comprising means for holding a workpiece, afeeler, amovable mounting therefor capable of causing the feeler to traverse the surface of the workpiece along the contour to be gauged: a mounting for an index coupled to the feeler' so as to copy its, movements, a stationary'mounting. for a master graticule bearing a representation. of the desired contour for the workpiece,- an optical? system for directing' an image of the index on to the master graticule (the optical system being such as to cause the image of the index to trace over the master graticule a path representing the shape of the actual workpiece contour to the same scale as the representation of the desired contour thereon) and optical means for'projecting a combined image of the index and a portion of the master graticule on to a screen on an enlarged, scale, the said means for projecting the combined image being connected to the movable mounting for the feeler and thereby caused to move the image of the master graticule sufiiciently to keep the image of the index on the screen throughout the traverse of the contour.

2. Apparatus as claimed in claim 1 wherein the feeler, the index and a projection lens for projecting the combined image are mounted on a table which is capable of movement in any direction parallel to itself in one plane.

3. Apparatus as claimed in claim 2 wherein the table is provided with means for traversing it in one direction relatively to the surface of the workpiece and means for yieldingly urging it in a transverse direction such as to urge the feeler into contact with the workpiece.

4. Apparatus as claimed in claim 3 wherein two opposed feelers are mounted on the table with space to receive the workpiece between them and the means foryieldingly urging the table in a transverse direction are reversible, so as to urge one or other of the two feelers into contact with the workpiece.

5. Apparatus as claimed in claim 4 wherein two indexes are provided on the table, spaced apart by substantially the same distance as the two feelers and the optical means for projecting the combined image of the index and master graticule is laterally movable to centre it over the image of either index at will.

6. Apparatus as claimed in claim 5 wherein means for reversing the transverse urge on the table is provided in combination with contact means on a member moving with the longitudinal traverse of the table for automatically reversing the said urge after a predetermined longitudinal table movement.

'7. Apparatus as claimed in claim 6 wherein the optical projecting means is connected to the automatic reversing means so as to be automatically moved laterally when the means are reversed.

8. Apparatus as claimed in claim 7 wherein the means for moving the optical projecting means laterally comprises a solenoid and electrical connections therefrom to a switch operated by the said automatic reversing means.

9. Apparatus as claimed in claim 1 wherein the index is a spot marked on an index-graticule surrounded by a tolerance circle.

10. Apparatus as claimed in claim 1 wherein there are provided two feelers spaced apart to receive the workpiece between them and two indexes in the form of spots marked upon an index graticule and spaced to correspond with the spacing of the feelers.

11. Apparatus as claimed in claim 1 wherein the means for holding the workpiece comprises a bracket, a slide upon which the bracket is movable, which slide extends in a direction parallel with the length of the workpiece and transverse to the direction of traversing movement of the feeler, and means to move the bracket along the slide to position the workpiece relatively to the feeler at various positions for gauging corresponding contours. r

12. Apparatus" as claimed in claim 11 wherein a positioning bar, carrying abutments, is held parallel with the slide and the bracket is provided with a cooperating abutment member to engage one or other of the abutments on the slide and so determine a series of positions for the workpiece.

13. Apparatus as claimed in claim 12 wherein a work-holding chuck is mounted upon the bracket so as to be capable of turning about an axis extending parallel to the slide. a

14. Apparatus as claimed in claim 13 wherein the work-holding chuck is provided with indexing means to enable the angle to which it is turned to be readily set. I

15. Apparatus as claimed in claim 14 wherein the indexing means comprise an index arm and adjustable stops on each side of said arm to limit its angular movement.

16. Apparatus as claimed in claim 1 wherein the master graticule is mounted so as to be rotatable in its own plane and the graticule carries representations of a plurality of contours, angularly displaced in relation to each other, and means are provided for rotating the graticule to bring any one of the representations at will into proper angular relationship with the workpiece.

17. Apparatus as claimed in claim 16, wherein the graticule is slidable'laterally relatively to its mounting and wherein the mounting is provided with an indexing device to facilitate angular setting thereof.

18. Apparatus as claimed in claim 17 wherein the indexing device comprises a plurality of abutments in the periphery of the mounting and a pawl to engage any one of the abutments and position the mounting accordingly.

19. Apparatus as claimed in claim 1 wherein the optical means for focussing an image of the index upon the master graticule includes a reversing prism.

20. Apparatus for optically gauging a contour of a work-piece comprising a feeler, a work-piece holder, means for efiecting relative movement of the feeler and work-pieceholder to traverse the feeler over a profile of a work-piece held in the holder, a master profile, a screen, optical projector for projecting an enlarged image of a part of the master profile upon the screen, means for moving the master profile and projector relatively to one another, an operative connection from said means efiecting relative movement between the feeler and work-piece holder to said means effecting relative movement between the master profile and projector, the magnification of said projector and relative movement between the projector and master profile being such as to keep upon the screen at any given moment the image of the part of the master profile which corresponds to the portion of the work-piece which the feeler is then engagin and to keep said image in proper relation to an index represented on the screen, so that deviations of the actual form from the desired contour can be observed as deviations of the said image from the index.

21. Apparatus as claimed in claim 1 wherein the movable mounting consists of a slide mounted to slide upon a base past the work-piece, means for moving said slide, and a table mounted to move upon the slide towards and from the workpiece, and means for moving said table, wherein the table carries the feeler, the index and a pro- 

